package com.api.test.bean.Meter;

public class Data {


        private int activePowerA;
        private int activePowerB;
        private int activePowerC;
        private int activePowerS;
        private int reactivePowerA;
        private int reactivePowerB;
        private int reactivePowerC;
        private int reactivePowerS;
        private int apparentPowerA;
        private int apparentPowerB;
        private int apparentPowerC;
        private int apparentPowerS;
        private int circuitVoltageA;
        private int circuitVoltageB;
        private int circuitVoltageC;
        private int circuitVoltageV;
        private int mutuallyVoltageA;
        private int mutuallyVoltageB;
        private int mutuallyVoltageC;
        private int mutuallyVoltageV;
        private int currentPeakFactorA;
        private int currentPeakFactorB;
        private int currentPeakFactorC;
        private int currentPhaseAngleA;
        private int currentPhaseAngleB;
        private int currentPhaseAngleC;
        private int voltagePhaseAngleA;
        private int voltagePhaseAngleB;
        private int voltagePhaseAngleC;
        private int energyPlusP;
        private int energyMinusP;
        private int energyPlusQ;
        private int energyMinusQ;
        private int energyS;
        private int faultArcA;
        private int faultArcB;
        private int faultArcC;
        private int frequency;
        private int fullWavePowerFactorA;
        private int fullWavePowerFactorB;
        private int fullWavePowerFactorC;
        private int fullWavePowerFactorV;
        private int fundamentalPowerFactorA;
        private int fundamentalPowerFactorB;
        private int fundamentalPowerFactorC;
        private int leftCurMA;
        private int maxDemandP;
        private int maxDemandQ;
        private int maxDemandS;
        private int realTimeDemandP;
        private int realTimeDemandQ;
        private int realTimeDemandS;
        private int mutuallyCurrentA;
        private int mutuallyCurrentB;
        private int mutuallyCurrentC;
        private int mutuallyCurrentV;
        private int voltageImbalance;
        public void setActivePowerA(int activePowerA) {
            this.activePowerA = activePowerA;
        }
        public int getActivePowerA() {
            return activePowerA;
        }

        public void setActivePowerB(int activePowerB) {
            this.activePowerB = activePowerB;
        }
        public int getActivePowerB() {
            return activePowerB;
        }

        public void setActivePowerC(int activePowerC) {
            this.activePowerC = activePowerC;
        }
        public int getActivePowerC() {
            return activePowerC;
        }

        public void setActivePowerS(int activePowerS) {
            this.activePowerS = activePowerS;
        }
        public int getActivePowerS() {
            return activePowerS;
        }

        public void setReactivePowerA(int reactivePowerA) {
            this.reactivePowerA = reactivePowerA;
        }
        public int getReactivePowerA() {
            return reactivePowerA;
        }

        public void setReactivePowerB(int reactivePowerB) {
            this.reactivePowerB = reactivePowerB;
        }
        public int getReactivePowerB() {
            return reactivePowerB;
        }

        public void setReactivePowerC(int reactivePowerC) {
            this.reactivePowerC = reactivePowerC;
        }
        public int getReactivePowerC() {
            return reactivePowerC;
        }

        public void setReactivePowerS(int reactivePowerS) {
            this.reactivePowerS = reactivePowerS;
        }
        public int getReactivePowerS() {
            return reactivePowerS;
        }

        public void setApparentPowerA(int apparentPowerA) {
            this.apparentPowerA = apparentPowerA;
        }
        public int getApparentPowerA() {
            return apparentPowerA;
        }

        public void setApparentPowerB(int apparentPowerB) {
            this.apparentPowerB = apparentPowerB;
        }
        public int getApparentPowerB() {
            return apparentPowerB;
        }

        public void setApparentPowerC(int apparentPowerC) {
            this.apparentPowerC = apparentPowerC;
        }
        public int getApparentPowerC() {
            return apparentPowerC;
        }

        public void setApparentPowerS(int apparentPowerS) {
            this.apparentPowerS = apparentPowerS;
        }
        public int getApparentPowerS() {
            return apparentPowerS;
        }

        public void setCircuitVoltageA(int circuitVoltageA) {
            this.circuitVoltageA = circuitVoltageA;
        }
        public int getCircuitVoltageA() {
            return circuitVoltageA;
        }

        public void setCircuitVoltageB(int circuitVoltageB) {
            this.circuitVoltageB = circuitVoltageB;
        }
        public int getCircuitVoltageB() {
            return circuitVoltageB;
        }

        public void setCircuitVoltageC(int circuitVoltageC) {
            this.circuitVoltageC = circuitVoltageC;
        }
        public int getCircuitVoltageC() {
            return circuitVoltageC;
        }

        public void setCircuitVoltageV(int circuitVoltageV) {
            this.circuitVoltageV = circuitVoltageV;
        }
        public int getCircuitVoltageV() {
            return circuitVoltageV;
        }

        public void setMutuallyVoltageA(int mutuallyVoltageA) {
            this.mutuallyVoltageA = mutuallyVoltageA;
        }
        public int getMutuallyVoltageA() {
            return mutuallyVoltageA;
        }

        public void setMutuallyVoltageB(int mutuallyVoltageB) {
            this.mutuallyVoltageB = mutuallyVoltageB;
        }
        public int getMutuallyVoltageB() {
            return mutuallyVoltageB;
        }

        public void setMutuallyVoltageC(int mutuallyVoltageC) {
            this.mutuallyVoltageC = mutuallyVoltageC;
        }
        public int getMutuallyVoltageC() {
            return mutuallyVoltageC;
        }

        public void setMutuallyVoltageV(int mutuallyVoltageV) {
            this.mutuallyVoltageV = mutuallyVoltageV;
        }
        public int getMutuallyVoltageV() {
            return mutuallyVoltageV;
        }

        public void setCurrentPeakFactorA(int currentPeakFactorA) {
            this.currentPeakFactorA = currentPeakFactorA;
        }
        public int getCurrentPeakFactorA() {
            return currentPeakFactorA;
        }

        public void setCurrentPeakFactorB(int currentPeakFactorB) {
            this.currentPeakFactorB = currentPeakFactorB;
        }
        public int getCurrentPeakFactorB() {
            return currentPeakFactorB;
        }

        public void setCurrentPeakFactorC(int currentPeakFactorC) {
            this.currentPeakFactorC = currentPeakFactorC;
        }
        public int getCurrentPeakFactorC() {
            return currentPeakFactorC;
        }

        public void setCurrentPhaseAngleA(int currentPhaseAngleA) {
            this.currentPhaseAngleA = currentPhaseAngleA;
        }
        public int getCurrentPhaseAngleA() {
            return currentPhaseAngleA;
        }

        public void setCurrentPhaseAngleB(int currentPhaseAngleB) {
            this.currentPhaseAngleB = currentPhaseAngleB;
        }
        public int getCurrentPhaseAngleB() {
            return currentPhaseAngleB;
        }

        public void setCurrentPhaseAngleC(int currentPhaseAngleC) {
            this.currentPhaseAngleC = currentPhaseAngleC;
        }
        public int getCurrentPhaseAngleC() {
            return currentPhaseAngleC;
        }

        public void setVoltagePhaseAngleA(int voltagePhaseAngleA) {
            this.voltagePhaseAngleA = voltagePhaseAngleA;
        }
        public int getVoltagePhaseAngleA() {
            return voltagePhaseAngleA;
        }

        public void setVoltagePhaseAngleB(int voltagePhaseAngleB) {
            this.voltagePhaseAngleB = voltagePhaseAngleB;
        }
        public int getVoltagePhaseAngleB() {
            return voltagePhaseAngleB;
        }

        public void setVoltagePhaseAngleC(int voltagePhaseAngleC) {
            this.voltagePhaseAngleC = voltagePhaseAngleC;
        }
        public int getVoltagePhaseAngleC() {
            return voltagePhaseAngleC;
        }

        public void setEnergyPlusP(int energyPlusP) {
            this.energyPlusP = energyPlusP;
        }
        public int getEnergyPlusP() {
            return energyPlusP;
        }

        public void setEnergyMinusP(int energyMinusP) {
            this.energyMinusP = energyMinusP;
        }
        public int getEnergyMinusP() {
            return energyMinusP;
        }

        public void setEnergyPlusQ(int energyPlusQ) {
            this.energyPlusQ = energyPlusQ;
        }
        public int getEnergyPlusQ() {
            return energyPlusQ;
        }

        public void setEnergyMinusQ(int energyMinusQ) {
            this.energyMinusQ = energyMinusQ;
        }
        public int getEnergyMinusQ() {
            return energyMinusQ;
        }

        public void setEnergyS(int energyS) {
            this.energyS = energyS;
        }
        public int getEnergyS() {
            return energyS;
        }

        public void setFaultArcA(int faultArcA) {
            this.faultArcA = faultArcA;
        }
        public int getFaultArcA() {
            return faultArcA;
        }

        public void setFaultArcB(int faultArcB) {
            this.faultArcB = faultArcB;
        }
        public int getFaultArcB() {
            return faultArcB;
        }

        public void setFaultArcC(int faultArcC) {
            this.faultArcC = faultArcC;
        }
        public int getFaultArcC() {
            return faultArcC;
        }

        public void setFrequency(int frequency) {
            this.frequency = frequency;
        }
        public int getFrequency() {
            return frequency;
        }

        public void setFullWavePowerFactorA(int fullWavePowerFactorA) {
            this.fullWavePowerFactorA = fullWavePowerFactorA;
        }
        public int getFullWavePowerFactorA() {
            return fullWavePowerFactorA;
        }

        public void setFullWavePowerFactorB(int fullWavePowerFactorB) {
            this.fullWavePowerFactorB = fullWavePowerFactorB;
        }
        public int getFullWavePowerFactorB() {
            return fullWavePowerFactorB;
        }

        public void setFullWavePowerFactorC(int fullWavePowerFactorC) {
            this.fullWavePowerFactorC = fullWavePowerFactorC;
        }
        public int getFullWavePowerFactorC() {
            return fullWavePowerFactorC;
        }

        public void setFullWavePowerFactorV(int fullWavePowerFactorV) {
            this.fullWavePowerFactorV = fullWavePowerFactorV;
        }
        public int getFullWavePowerFactorV() {
            return fullWavePowerFactorV;
        }

        public void setFundamentalPowerFactorA(int fundamentalPowerFactorA) {
            this.fundamentalPowerFactorA = fundamentalPowerFactorA;
        }
        public int getFundamentalPowerFactorA() {
            return fundamentalPowerFactorA;
        }

        public void setFundamentalPowerFactorB(int fundamentalPowerFactorB) {
            this.fundamentalPowerFactorB = fundamentalPowerFactorB;
        }
        public int getFundamentalPowerFactorB() {
            return fundamentalPowerFactorB;
        }

        public void setFundamentalPowerFactorC(int fundamentalPowerFactorC) {
            this.fundamentalPowerFactorC = fundamentalPowerFactorC;
        }
        public int getFundamentalPowerFactorC() {
            return fundamentalPowerFactorC;
        }

        public void setLeftCurMA(int leftCurMA) {
            this.leftCurMA = leftCurMA;
        }
        public int getLeftCurMA() {
            return leftCurMA;
        }

        public void setMaxDemandP(int maxDemandP) {
            this.maxDemandP = maxDemandP;
        }
        public int getMaxDemandP() {
            return maxDemandP;
        }

        public void setMaxDemandQ(int maxDemandQ) {
            this.maxDemandQ = maxDemandQ;
        }
        public int getMaxDemandQ() {
            return maxDemandQ;
        }

        public void setMaxDemandS(int maxDemandS) {
            this.maxDemandS = maxDemandS;
        }
        public int getMaxDemandS() {
            return maxDemandS;
        }

        public void setRealTimeDemandP(int realTimeDemandP) {
            this.realTimeDemandP = realTimeDemandP;
        }
        public int getRealTimeDemandP() {
            return realTimeDemandP;
        }

        public void setRealTimeDemandQ(int realTimeDemandQ) {
            this.realTimeDemandQ = realTimeDemandQ;
        }
        public int getRealTimeDemandQ() {
            return realTimeDemandQ;
        }

        public void setRealTimeDemandS(int realTimeDemandS) {
            this.realTimeDemandS = realTimeDemandS;
        }
        public int getRealTimeDemandS() {
            return realTimeDemandS;
        }

        public void setMutuallyCurrentA(int mutuallyCurrentA) {
            this.mutuallyCurrentA = mutuallyCurrentA;
        }
        public int getMutuallyCurrentA() {
            return mutuallyCurrentA;
        }

        public void setMutuallyCurrentB(int mutuallyCurrentB) {
            this.mutuallyCurrentB = mutuallyCurrentB;
        }
        public int getMutuallyCurrentB() {
            return mutuallyCurrentB;
        }

        public void setMutuallyCurrentC(int mutuallyCurrentC) {
            this.mutuallyCurrentC = mutuallyCurrentC;
        }
        public int getMutuallyCurrentC() {
            return mutuallyCurrentC;
        }

        public void setMutuallyCurrentV(int mutuallyCurrentV) {
            this.mutuallyCurrentV = mutuallyCurrentV;
        }
        public int getMutuallyCurrentV() {
            return mutuallyCurrentV;
        }

        public void setVoltageImbalance(int voltageImbalance) {
            this.voltageImbalance = voltageImbalance;
        }
        public int getVoltageImbalance() {
            return voltageImbalance;
        }

    }

